Impact deformation and dislocation substructure of Ti-6Al-7Nb biomedical alloy

Keyphrases

• Strain Rate 100%
• Dislocation Substructure 100%
• Deformation Structure 100%
• Impact Deformation 100%
• Biomedical Alloys 100%
• Ti-6Al-7Nb 100%
• Dislocation Density 66%
• Flow Stress 66%
• Increased Temperature 66%
• Low Temperature 33%
• Dislocation 33%
• Linear Relationship 33%
• Loading Conditions 33%
• Transmission Electron Microscopy Observation 33%
• High Strain Rate 33%
• Split Hopkinson Pressure Bar 33%
• Dislocation multiplication 33%
• Density Increase 33%
• Strain Rate Sensitivity 33%
• Work Hardening Coefficient 33%
• Work Hardening Effect 33%
• Square Root 33%
• Impact Test 33%
• High Temperature Deformation 33%
• Thermal Softening Effect 33%
• High Strain Rate Loading 33%

Engineering

• Strain Rate 100%
• Dislocation Substructure 100%
• Strain Hardening 66%
• High Strain Rate 66%
• Increasing Temperature 66%
• Dislocation Density 66%
• Increasing Strain 66%
• Flow Stress 66%
• Low-Temperature 33%
• Experimental Result 33%
• Linear Relationship 33%
• Loading Condition 33%
• Split Hopkinson Pressure Bar 33%
• Strain Rate Sensitivity 33%
• Hardening Coefficient 33%
• Hardening Effect 33%
• Square Root 33%
• Impact Test 33%
• Thermal Softening 33%

Material Science

• Strain Rate 100%
• Density 33%
• Work Hardening 33%
• Transmission Electron Microscopy 16%
• Impact Testing 16%